The sun safety display and dispenser is a rugged outdoor device designed to measure the direct and scattered UV radiation in the atmosphere; to calculate and display a sun safety awareness index warning of the time to skin burn and or potential damage; to provide a personalized sun safety awareness index reading to help the user determine the appropriate SPF sunscreen, manually or automatically; and, to dispense sunscreen generally or by specific SPF as correlated with the user's personalized sun safety awareness index reading.

A system and method for low noise electromagnetic radiation measurement enabling to measure weak signals is provided. The electromagnetic radiation measurement system is configured for detecting weak electromagnetic radiation input signals overcoming the quantum limit. The electromagnetic radiation|measurement system includes at least one or more first 50/50 power splitter receiving the input signal; two or more identical balanced heterodyne receivers; two or more LNAs; one or more local oscillator (LO), one or more optical isolator; one or more second 50/50 power splitter; a digital correlator; and a computer or a similar computational device.

A device for subjecting a flying insect to lethal radiation. The device has a measurement beam source for producing a measurement beam, a deflection unit for deflecting the measurement beam, a lethal radiation source for producing a lethal beam and a measurement beam detector. The measurement detector has a photodetector element, the deflection unit and the measurement beam detector are arranged and cooperate such that the measurement beam sweeps the detector surface of the measurement beam detector. The device includes an evaluation unit connected to the measurement detector and the lethal light source to determine an attenuation time period of an attenuation of the measurement beam between the deflection unit and the detector surface and to control the lethal light source depending on said attenuation time to emit a lethal beam impulse. A method for subjecting a flying insect to lethal radiation is also provided.

A wavelength measuring device configured to detect a wavelength of ultraviolet laser light outputted from a laser resonator with at least one etalon, the wavelength measuring device includes: a first housing having an interior space being sealed and accommodating the etalon, an input window through which the ultraviolet laser light enters to the first housing, the input window being provided at a first opening of the first housing, a first sealing member configured to seal a gap between a rim part of the input window and a circumferential portion of the first opening, a shielding film provided between the rim part of the input window and the first sealing member and configured to shield the first sealing member from the ultraviolet laser light coming from the input window, and a diffusing element provided outside of the first housing and configured to diffuse the ultraviolet laser light before being incident on the input window.

A method of patterning lithographic substrates, the method including using a free electron laser to generate EUV radiation and delivering the EUV radiation to a lithographic apparatus which projects the EUV radiation onto lithographic substrates, wherein the method further includes reducing fluctuations in the power of EUV radiation delivered to the lithographic substrates by using a feedback-based control loop to monitor the free electron laser and adjust operation of the free electron laser accordingly.

Methods of accurately estimating erythemaly-weighted UV exposure, such as the UV Index, and sensors adapted for the same.

A system, according to various embodiments, includes eyewear (or any other suitable wearable device) that includes at least one environmental pollution monitoring sensor (e.g., at least one light pollution, air pollution, radioactive pollution, thermal pollution, and/or noise pollution sensor) that may be used to monitor the presence of environmental pollution adjacent a wearer of the eyewear. The system may further include one or more health monitoring sensors to determine the health effects of the environmental pollution on the wearer. In certain circumstances, the system may alert the user to potentially harmful environmental conditions, or convey preventative healthcare advice to the wearer.

The invention provides a system and related equipment for the precise measurement of the output characteristic of a light source, e.g., a dental light curing unit (LCU) or light for photodynamic therapy, using a light collector, a light detector, and a computer programmed to deliver the value of the output characteristic of the light source to the user. The systems allow for the determination of a proper exposure time or the selection of a light source as needed for a specific application.

Methods and systems for determining one or more characteristics of light in an optical system are provided. One system includes first detector(s) configured to detect light having one or more wavelengths shorter than 190 nm emitted from a light source at one or more first angles mutually exclusive of one or more second angles at which the light is collected from the light source by an optical system for illumination of a specimen and to generate first output responsive to the light detected by the first detector(s). In addition, the system includes a control subsystem configured for determining one or more characteristics of the light at one or more planes in the optical system based on the first output.

A plasma generating system includes a waveguide for transmitting a microwave energy therethrough and an inner wall disposed within the waveguide to define a plasma cavity, where a plasma is generated within the plasma cavity using the microwave energy. The plasma generating system further includes: an adaptor having a gas outlet through which an exhaust gas processed by the plasma exits the plasma cavity; and a recuperator directly attached to the adaptor and having a gas passageway that is in fluid communication with the gas outlet in the adaptor. The recuperator recovers heat energy from the exhaust gas and heats an input gas using the heat energy.